LM60 2.7V, SOT-23 or TO
... The LM60 is a precision integrated-circuit temperature sensor that can sense a −40°C to +125°C temperature range while operating from a single +2.7V supply. The LM60's output voltage is linearly proportional to Celsius (Centigrade) temperature (+6.25 mV/°C) and has a DC offset of +424 mV. The offset ...
... The LM60 is a precision integrated-circuit temperature sensor that can sense a −40°C to +125°C temperature range while operating from a single +2.7V supply. The LM60's output voltage is linearly proportional to Celsius (Centigrade) temperature (+6.25 mV/°C) and has a DC offset of +424 mV. The offset ...
Here is what you write
... The digital ground is the ground pin on the 7805 on your circuit board. Your circuit has the digital and analog sections totally isolated from each other. Do you mean I need to take off the digital ground of my push buttons that I attached the file for DGND. It remain the 7805 digital ground. Using ...
... The digital ground is the ground pin on the 7805 on your circuit board. Your circuit has the digital and analog sections totally isolated from each other. Do you mean I need to take off the digital ground of my push buttons that I attached the file for DGND. It remain the 7805 digital ground. Using ...
MAX192 Low-Power, 8-Channel, Serial 10-Bit ADC ________________General Description
... source impedances below 5kW do not significantly affect the AC performance of the ADC. Higher source impedances can be used if an input capacitor is connected to the analog inputs, as shown in Figure 5. Note that the input capacitor forms an RC filter with the input source impedance, limiting the AD ...
... source impedances below 5kW do not significantly affect the AC performance of the ADC. Higher source impedances can be used if an input capacitor is connected to the analog inputs, as shown in Figure 5. Note that the input capacitor forms an RC filter with the input source impedance, limiting the AD ...
FPF3003 IntelliMAX™ Full Functional Input Power
... The FPF3003 controls the charging path from the charger to the battery with up to 1.5A and the discharging path from the battery to system load with up to 2.5A. The system or PMIC selects one of two batteries to provide power and enables one of the batteries to be charged by the external battery cha ...
... The FPF3003 controls the charging path from the charger to the battery with up to 1.5A and the discharging path from the battery to system load with up to 2.5A. The system or PMIC selects one of two batteries to provide power and enables one of the batteries to be charged by the external battery cha ...
Testing of Conducted Energy Weapons CPRC
... Taser International is the premier supplier of ECD’s (Electronic Control Devices) to law enforcement agencies across North America. Taser uses electrical impulses that cause stimulation of both motor and sensory nerves. The effect is a disruption of the information carried from the body to the brain ...
... Taser International is the premier supplier of ECD’s (Electronic Control Devices) to law enforcement agencies across North America. Taser uses electrical impulses that cause stimulation of both motor and sensory nerves. The effect is a disruption of the information carried from the body to the brain ...
012183189U
... harmonic current cannot be blocked by the transformers, it is important to find out whether there magnitudes are acceptable for the network from the viewpoint of power quality. The equivalent network of the DPFC at the 3rd harmonic can be represented as Fig.7. To reduce the magnitude of the3rd harmo ...
... harmonic current cannot be blocked by the transformers, it is important to find out whether there magnitudes are acceptable for the network from the viewpoint of power quality. The equivalent network of the DPFC at the 3rd harmonic can be represented as Fig.7. To reduce the magnitude of the3rd harmo ...
9. Using PSPICE for 1st Order Circuits
... series-equivalent resistance is essentially that of the resistor. Alternatively, when the switch is open, the switch resistance is 1 MΩ, 1,000 times larger than that of the resistor. Now, the equivalent resistance is much larger than that of the resistor in Figure 1. ...
... series-equivalent resistance is essentially that of the resistor. Alternatively, when the switch is open, the switch resistance is 1 MΩ, 1,000 times larger than that of the resistor. Now, the equivalent resistance is much larger than that of the resistor in Figure 1. ...
FPF3003 IntelliMAX™ Full Functional Input Power Path
... The FPF3003 controls the charging path from the charger to the battery with up to 1.5A and the discharging path from the battery to system load with up to 2.5A. The system or PMIC selects one of two batteries to provide power and enables one of the batteries to be charged by the external battery cha ...
... The FPF3003 controls the charging path from the charger to the battery with up to 1.5A and the discharging path from the battery to system load with up to 2.5A. The system or PMIC selects one of two batteries to provide power and enables one of the batteries to be charged by the external battery cha ...
Chapter 27
... their resultant motion is complicated and zigzag (Fig. 27.3). Despite the collisions, the electrons move slowly along the conductor (in a direction opposite that of E) at the drift velocity vd . ...
... their resultant motion is complicated and zigzag (Fig. 27.3). Despite the collisions, the electrons move slowly along the conductor (in a direction opposite that of E) at the drift velocity vd . ...
Unit 2 Amplifier introduction
... The gain of the overall system AOVERALL= 500mW / 30 mW = 16.6 The gain of amplifier 1 is 10dB = antilog (10/10) = 10 The gain of the transmission line (link 1) is –6dB = antilog (-6/10) = 0.25 (which is actually a loss) The gain of link 2 is –6dB = 0.25 The gain of amplifier 3 = 12dB = ant ...
... The gain of the overall system AOVERALL= 500mW / 30 mW = 16.6 The gain of amplifier 1 is 10dB = antilog (10/10) = 10 The gain of the transmission line (link 1) is –6dB = antilog (-6/10) = 0.25 (which is actually a loss) The gain of link 2 is –6dB = 0.25 The gain of amplifier 3 = 12dB = ant ...
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
... based on the position of the motor identified using feedback two of the three electrical windings are energized at a time as shown in figure 4. In figure 4 (A), the GREEN winding labelled ―001‖ is energized as the NORTH pole and the BLUE winding labelled as ―010‖ is energized as the SOUTH pole. Beca ...
... based on the position of the motor identified using feedback two of the three electrical windings are energized at a time as shown in figure 4. In figure 4 (A), the GREEN winding labelled ―001‖ is energized as the NORTH pole and the BLUE winding labelled as ―010‖ is energized as the SOUTH pole. Beca ...
Design Methodology for Common-Mode Stability of
... GNSS and UWB [1]–[4]. These systems require more and more bandwidth (BW) and selectivity due to the growing number of users and systems working together. These requirements thus also apply to the constituent continuous-time filters. At base-band or relatively low frequencies, active inductors are co ...
... GNSS and UWB [1]–[4]. These systems require more and more bandwidth (BW) and selectivity due to the growing number of users and systems working together. These requirements thus also apply to the constituent continuous-time filters. At base-band or relatively low frequencies, active inductors are co ...
IOSR Journal of Computer Engineering (IOSR-JCE) e-ISSN: 2278-0661, p-ISSN: 2278-8727 PP 29-36 www.iosrjournals.org
... ABSTRACT : In High speed operations the duty cycle of the clock signal is to bé calibrated at 50%. But the variations in process, voltage and temperature (PVT) influences the duty cycle and make it difficult to calibrate the duty cycle at 50%. To overcome this deviation Pulse width control loops (PW ...
... ABSTRACT : In High speed operations the duty cycle of the clock signal is to bé calibrated at 50%. But the variations in process, voltage and temperature (PVT) influences the duty cycle and make it difficult to calibrate the duty cycle at 50%. To overcome this deviation Pulse width control loops (PW ...
Design and Layout Guidelines for the
... Series termination is effective in reducing the driver’s edge rate, and it consumes low power. It is recommended for single receiver, point-to-point and star topologies. Series termination provides good signal quality by damping overshoot and undershoot, and effectively reducing line noise and EMI. ...
... Series termination is effective in reducing the driver’s edge rate, and it consumes low power. It is recommended for single receiver, point-to-point and star topologies. Series termination provides good signal quality by damping overshoot and undershoot, and effectively reducing line noise and EMI. ...
LM5046 Phase-Shifted Full-Bridge PWM Controller with Integrated
... LM5046 Phase-Shifted Full-Bridge PWM Controller With Integrated MOSFET Drivers 1 Features ...
... LM5046 Phase-Shifted Full-Bridge PWM Controller With Integrated MOSFET Drivers 1 Features ...
Good ground connection
... The sense voltages measured by the TMC260 (SRA-GND and SRB-GND) not only depend on the phase currents coming out of BRA and BRB and the sense resistor values but also on the parasitic resistances 3 and 4 for phase A, 7 and 8 for phase B as well as 9 for both phases. The voltage at the GND pin also i ...
... The sense voltages measured by the TMC260 (SRA-GND and SRB-GND) not only depend on the phase currents coming out of BRA and BRB and the sense resistor values but also on the parasitic resistances 3 and 4 for phase A, 7 and 8 for phase B as well as 9 for both phases. The voltage at the GND pin also i ...
Opto-isolator
In electronics, an opto-isolator, also called an optocoupler, photocoupler, or optical isolator, is a component that transfers electrical signals between two isolated circuits by using light. Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 10 kV/μs.A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.